Pengolahan dan Pemanfaatan Larva dan Pupa BSF (Black Soldier Fly) Hasil Dekomposisi Limbah Organik
Abstract
Black Soldier Fly (BSF) memiliki kandungan protein yang cukup tinggi, yaitu 40-50% dengan kandungan lemak berkisar 29-32%. Larva dan pupa BSF yang dihasilkan dari dekomposisi dapat diolah menjadi komponen penting pakan hewan ternak dengan mengubahnya menjadi pelet. Tujuan dari penelitian ini adalah menganalisis proses pengolahan larva BSF hasil dekomposisi limbah padat yang tepat, menghasilkan tepung protein dan pelet ikan dari pengolahan larva dan pupa BSF hasil dekomposisi limbah organik, dan mengkaji mutu pakan hasil pemanfaatan larva dan pupa BSF. Tahap penelitian meliputi konversi larva dan pupa BSF menjadi pelet, uji mutu pakan, dan pengukuran pertumbuhan Pangasius sp. dan ayam. Berdasarkan SNI 7548:2009, mutu pelet hasil pemanfaatan larva dan pupa BSF sudah sesuai, kecuali parameter kadar lemak pada pelet A serta kadar air dan abu pada pelet B. Pelet ikan yang dicampurkan dengan 20% tepung protein berpengaruh terhadap pertumbuhan berat Pangasius sp. Penggunaan tepung protein yang berasal dari larva BSF sebagai bahan substitusi pakan komersil memberikan hasil berat pada ayam yang hampir sama dengan berat ayam yang diberi pakan komersil saja. Black Soldier Fly (BSF) has a fairly high protein content, which is 40-50%
with a fat content ranging from 29-32%. BSF larvae and pupae resulting from
decomposition can be processed into important components of livestock feed by
converting them into pellets. The purpose of this study was to analyze the proper
processing of BSF larvae resulting from solid waste decomposition, to produce
protein meal and fish pellets from processing BSF larvae and pupae from organic
waste decomposition, and to examine the quality of feed from the utilization of BSF
larvae and pupae. The research phase included the conversion of BSF larvae and
pupae into pellets, feed quality testing, and measurement of the growth of Pangasius
sp. and chicken. Based on SNI 7548:2009, the quality of pellets from the use of
BSF larvae and pupae was appropriate, except for the parameters of fat content in
pellet A and water and ash content in pellet B. Fish pellets mixed with 20% protein
flour affected the weight growth of Pangasius sp. The use of protein flour derived
from BSF larvae as a substitute for commercial feed gave chicken weight results
that were almost the same as the weight of chickens fed commercial feed only.